Lectures related to Fracture Mechanics: Mixed-Mode Loading

Fracture Mechanics: Crack Growth and Weakest Link

Explores fracture mechanics, crack growth, and the weakest link theory, emphasizing the statistical distribution of crack sizes and the significance of the largest crack in material failure.

Fracture Mechanics: Introduction and Crack Analysis

Covers fracture mechanics fundamentals, including crack analysis and growth conditions.

Ellipsoidal Void Stress Concentrations

Explores stress concentrations on ellipsoidal void surfaces and the impact of inclusion on stress distribution.

Crack Tip Plasticity in Materials

Explores crack tip plasticity in materials, emphasizing the importance of the plastic zone in crack resistance.

Fracture Mechanics: Energy Analysis

Explores energy analysis in fracture mechanics, emphasizing unstable crack growth and the importance of compliance in structural behavior.

Fracture Mechanics: Introduction and Crack Growth Analysis

Covers the basics of fracture mechanics, including crack shape and growth analysis.

Fracture of Composite Materials

Explores fracture mechanics of composite materials, discussing fiber characteristics, failure modes, and testing methods.

Fracture of Materials: Revision

Covers fracture mechanics, stress intensity factor, rubber testing, and high-speed testing in materials.

Mechanics of Transforming Materials

Discusses sources of strain, transformation strains, and behavior of materials undergoing transformation in constrained bodies.

Crack Growth: Stress Intensity and Fracture Mechanics

Explores crack growth, stress intensity factors, and fracture mechanics in materials, emphasizing energy considerations and critical stress intensity for crack growth onset.

Fracture Analysis: Energy and Mechanics

Explores macroscopic energy analysis of fracture, focusing on unstable crack growth and energy mechanics.

Fracture Mechanics: Crack Growth and Stability

Explores crack propagation, stability, cohesive zones, and fatigue crack growth in materials.

Fracture Mechanics: Crack Growth and Stress Intensity Factor

Explores crack growth, stress intensity factor, and fracture toughness in materials.

Fracture Mechanics: Toughening Mechanisms and Resistance Curve

Explores toughening mechanisms, resistance curves, stress intensity analysis, and energy dissipation in fracture mechanics and fiber-reinforced composites.

Materials Fatigue: Fracture and Toughness

Explores fatigue, fracture toughness, stress intensity, and crack propagation in materials.

Fracture Mechanics: Cohesive Zone Model

Explores crack-tip energy dissipation, cohesive zone model analysis, small-scale yielding, stress fields near crack tips, and atomistic stress results.

Fracture Mechanics: Mixed-Mode Energy Release Rate

Explores fracture mechanics, focusing on energy release rate in mixed-mode loading conditions and crack growth directions.

Fatigue Phenomenon: Material Level

Explores crack development stages in fatigue phenomenon at the material level.

Plasticity in Plate with Hole

Covers the application of the plasticity condition in a plate with a hole and the estimation of the plastic zone region using the elastic stress field.

Glass Microfabrication: Mechanical Structuring

Explores glass microfabrication techniques, including precision machining and ultrasonic machining, focusing on mechanical properties and fracture behavior.